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Steel connections design According to EC3
User’s Manual
Version 1.0
April 2017
Contents 1 COPYRIGHT .................................................................................................... 5
2 DISCLAIMER ................................................................................................... 6
3 PRAXIS GENERAL DESCRIPTION ......................................................................... 7
4 BASE PLATE CONNECTION ............................................................................... 10
4.1 Column .................................................................................................. 11
4.2 Footing .................................................................................................. 13
4.3 Base plate .............................................................................................. 14
4.4 Stiffeners ............................................................................................... 15
4.5 Welds .................................................................................................... 16
4.6 Anchors ................................................................................................. 16
4.7 Ground .................................................................................................. 18
5 BEAM COLUMN CONNECTION WITH DOUBLE CLEAT ............................................ 23
5.1 Beam ..................................................................................................... 23
5.2 Column .................................................................................................. 25
5.3 Bolt properties ........................................................................................ 27
5.4 Leg channels ........................................................................................... 28
5.5 Column connection .................................................................................. 29
5.6 Beam connection ..................................................................................... 31
6 ENDPLATE BEAM COLUMN CONNECTION .......................................................... 34
6.1 General .................................................................................................. 34
6.2 Column .................................................................................................. 35
6.3 Right beam ............................................................................................. 39
6.4 Left beam ............................................................................................... 41
6.5 Right endplate......................................................................................... 43
6.6 Left endplate .......................................................................................... 44
6.7 Right bolts .............................................................................................. 45
6.8 Left bolts ................................................................................................ 46
6.9 Right haunch ........................................................................................... 47
6.10 Left haunch ......................................................................................... 49
7 BEAM COLUMN CONNECTION WITH STEEL PLATE ............................................... 53
7.1 Bolts properties ....................................................................................... 53
7.2 Steel plate .............................................................................................. 54
7.3 Column .................................................................................................. 55
7.4 Beam ..................................................................................................... 56
7.5 Plate welds ............................................................................................. 58
8 BEAM ON BEAM CONNECTION ........................................................................ 61
8.1 Main beam ............................................................................................. 61
8.2 General .................................................................................................. 64
8.3 Secondary beam ...................................................................................... 65
8.4 Leg channels ........................................................................................... 67
8.5 Bolts properties ....................................................................................... 68
8.6 Bolts on main beam ................................................................................. 70
8.7 Bolts on secondary beam .......................................................................... 71
9 BEAM SPLICES WITH ENDPLATES CONNECTION................................................... 74
9.1 Beam ..................................................................................................... 74
9.2 Haunch .................................................................................................. 77
9.3 Endplate ................................................................................................ 80
9.4 Bolts properties ....................................................................................... 80
9.5 Welds .................................................................................................... 81
9.6 BRACING CONNECTION ............................................................................. 84
9.7 Welds .................................................................................................... 84
9.8 Plate welds ............................................................................................. 86
9.9 Bolts properties ....................................................................................... 86
9.10 Beam .................................................................................................. 88
9.11 Column ............................................................................................... 90
9.12 Steel plate ........................................................................................... 91
9.13 Brace .................................................................................................. 92
9.14 Ductility .............................................................................................. 93
10 FLANGE AND WEB PLATES BEAM CONNECTION .................................................. 96
10.1 Steel plates .......................................................................................... 96
10.2 Beam .................................................................................................. 97
10.3 Web plate ......................................................................................... 100
10.4 Web bolts ......................................................................................... 102
10.5 Web plate ......................................................................................... 103
10.6 Flange bolts ....................................................................................... 104
10.7 Welds ............................................................................................... 104
1 COPYRIGHT
PRAXIS software and all associated documentation are proprietary and copyrighted products of 3DR
Engineering Software Ltd. Unlicensed use of the program or reproduction of the documentation in
any form, without prior written authorization from 3DR Engineering Software Ltd, is explicitly
prohibited and is subject to criminal prosecution.
Further information and copies of this documentation may be obtained from:
3DR Engineering Software
Kifisias Ave. 340
15233, Chalandri
Tel.: +30 210 6838011
Fax: +30 211 7702198
email: info@3dr.eu
www.3dr.eu
2 DISCLAIMER
CONSIDERABLE TIME, EFFORT AND EXPENSE HAVE GONE INTO THE DEVELOPMENT AND
DOCUMENTATION OF PRAXIS. THE PROGRAM HAS BEEN THOROUGHLY TESTED AND USED. IN USING
THE PROGRAM, HOWEVER, THE USER ACCEPTS AND UNDERSTANDS THAT NO WARRANTY IS
EXPRESSED OR IMPLIED BY THE DEVELOPERS OR THE DISTRIBUTORS ON THE ACCURACY OR THE
RELIABILITY OF THE PROGRAM.
THE PRESENT PROGRAM IS A PRACTICAL TOOL FOR THE ANALYSIS AND DESIGN/CHECK OF THE
STRUCTURAL ELEMENTS OF A STRUCTURAL MODEL. HOWEVER, THE USER MUST READ CAREFULLY
THE ASSOCIATED MANUALS, TECHNICAL NOTES AND VERIFICATION EXAMPLES. THE USER MUST ALSO
BE FAMILIAR WITH THE ALGORITHM EXECUTION PROCEDURE AND EXPLICITLY UNDERSTAND THE
ASSUMPTIONS OF THE PROGRAM AS THEY ARE BOTH DESCRIBED IN THE VERIFICATION
DOCUMENTATION THAT ACCOMPANY THE PROGRAM.
THE USER MUST INDEPENDENTLY VERIFY THE RESULTS OF THE PROGRAM. 3DR ENGINEERING
SOFTWARE AND THE DISTRIBUTORS OF THE PROGRAM ARE NOT IN ANY WAY RESPONSIBLE FOR THE
RESULTS OF THE PROGRAM.
3 PRAXIS GENERAL DESCRIPTION
Thank you for choosing Praxis for the structural design of your steel connections. We are confident
that after you familiarize with the program it will become a useful tool for your projects.
Picture 3.1
For example, when the user selects the base plate connection the above window appears.
At the centre of the window there is a 3D view of the connection. On the left of the window is the
following toolbar.
Picture 3.2
The user can rotate the 3D view by clicking on the first button of the toolbar and by clicking on the
second button he can move the 3D view.
When the user clicks on the third and the fourth button he can zoom in and out of the image. With the
fifth button the user can change the color of the backround, whereas by clicking on the sixth button
the positive connection loads appear.
The option Connection’s Properies gives the user the capability to select between a number of tabs
each one of which refers to a connection parameter.
Picture 3.3
The option Load Cases gives the user the capability to define the connection load cases.
Picture 3.4
The user can add more than one load cases by clicking on New. If the user wants to delete one or
more load cases he has already defined, he must click at the specific load combination and then click
at Delete.
The user can also import the connection loads from an Excel spreadsheet by clicking on Paste from
Excel.
To start the connection design the user clicks on Calculate in the frame of the option Actions.
Picture 3.5
On the right side of the window is the Input errors where the user can see the data entry errors.
Picture 3.6
4 BASE PLATE CONNECTION
This connection refers to a column-to-footing connection. The cross-section of the column can be
either of I type or hollow. The connection is subjected to pure biaxial bending (not superposition of
uniaxial bending). All types of anchors are supported (straight, with hook, with a nut, with square or
rectangular anchorage plate). Apart from the anchors and the base plate the program also designs the
footing, taking into consideration the soil parameters and the member forces. The user can also add
stiffeners to increase the bearing capacity of the steel connection. All the components of the
connection are checked according to EC3 while the program also produces the failure surface about
the major and minor axis of the column.
Picture 4.1
The option Connection’s Properies gives the user the capability to define the connection parameters
by selecting each time the appropriate tab.
Picture 4.2
4.1 Column
The Column tab gives the user the capability to define the column parameters. The user can define the
column length and whether the frame will be laterally unbraced or not (by checking the Lateral
unbraced frame option).
Picture 4.3
The user can also define the type, the shape and the steel grade of the column. By clicking on the
button Details the user can see the dimensions and the inertia characteristics of the column section.
Picture 4.4
Picture 4.5
By clicking on the Welded option the user can define the dimensions of the welded section and then
the program automatically calculates the section inertia characteristics.
Picture 4.6
4.2 Footing
By choosing the tab Footing the user can define the footing dimensions, the concrete grade and the
grout quality and thickness.
The user can also choose to place the base plate at the centre of the footing. When doing that the
dimensions specifying the base plate position relative to the footing become inactive.
Picture 4.7
The user can also define the footing reinforcement steel quality, the rebar diameter along the axes x, y
and the rebar cover.
4.3 Base plate
At the tab Base plate the user can define the number of the anchor rows and columns placed on the
end plate. When the options Place column symmetrically in the horizontal direction and Place column
symmetrically in the vertical direction are active, the column is placed in the centre of the end plate.
Alternatively, the user can move the column in the horizontal or in the vertical direction at will.
Picture 4.8
The user can also define the end plate steel quality.
4.4 Stiffeners
By clicking on the tab Stiffeners the following window appears. Inside the user has the capability to
select the use of stiffeners either along the major or minor axis or both. Additionally the user can
define the stiffeners steel quality, their height and thickness in mm and the weld thickness on the base
plate and on the column flange, also in mm.
Picture 4.9
4.5 Welds
Choosing the tab Welds the user can define the column web weld thickness and the column flange
weld thickness on base plate.
Picture 4.10
4.6 Anchors
The anchorage type of the base plate connection can be defined at the Anchors tab. The user can
choose either linear or hooked anchorage, or anchorage by nut, anchorage by circular or square plate.
When the user selects one of the last three anchorage types he also has the capability to define the
diameter, the thickness and the dimensions of the respective anchorage plates as well as their steel
quality. The anchorage is designed according to ETAB 001- Annex C.
Picture 4.11
Picture 4.12
The program gives the user the capability to use high bond anchors by clicking the appropriate option.
Picture 4.13
The program also gives the user the capability to calculate the anchorage length either based on Greek
Concrete Design Code or based on the developed anchorage force from the critical failure mechanism.
Picture 4.14
The user can also define the bolt type and quality and has the capability to choose the use of the
effective area of the bolt and/or oversize holes. When the user clicks on Details the following image
appears where the user can see the bolt type dimensions he defined. Clicking on Custom dimensions
the user defines the bolt dimensions he prefers.
Picture 4.15
4.7 Ground
By selecting the tab Ground the user can define the footing design parameters.
Picture 4.16
The user selects the soil type by clicking either clay or granular soil. When the user selects granular soil
he then has to define its parameters such as Soil sensitivity and Geotextile–soil Friction angle.
The user can also specify the ground seismic zone by clicking either Z.I, or Z.II- III, or without pore
pressures.
Picture 4.17
By clicking on Precast footing, the user can input the ground parameters (Soil density, Allowable
stress, Soil Shear Capasity, Friction angle, Soil cohesion, Geotextile – soil friction angle) he prefers.
Picture 4.18
The next step for the column base plate connection design is to define the load cases. The user can
add more than one load cases by clicking on New. If the user wants to delete one or more load cases
he has already defined, he can do so by clicking on the specific load combination and then on Delete.
Picture 4.19
The user can also import the connection loads from an Excel spreadsheet by clicking on Paste from
Excel.
The program is now ready to design the column base plate connection. The user clicks on Calculate
(EC3) and the interaction diagram for My/Mz and N for the defined load case appears.
Picture 4.20
The user can see the design results in the tab Results on the the left side of the window.
Picture 4.21
The red colour of the text means that the capacity is exceeded (capacity > 1.0)
5 BEAM COLUMN CONNECTION WITH DOUBLE CLEAT
This connection refers to a beam-to-column shear connection through the use of two equal or
unequal angle cleats. The cleats can be hot rolled or welded. The program performs all the relevant
checks according to EC3 (bolts shear capacity, bolts bearing capacity, block shear capacity, bending
and shear capacity of the angle cleats etc.).
Picture 5.1
The option Connection’s Properies gives the user the capability to define the connection parameters
by selecting each time the appropriate tab.
Picture 5.2
5.1 Beam
By clicking on the tab Beam the user can define the shape, the type and the steel quality of the beam.
Picture 5.3
When the user clicks on Details he has the capability to see the dimensions and the inertia
characteristics of the beam section the user defined.
Picture 5.4
Picture 5.5
By clicking on the option Welded the user can define the dimensions of the welded section and then
the program automatically calculates the section inertia characteristics.
Picture 5.6
5.2 Column
In the tab Column the user defines the shape, the type and the steel quality of the column.
When the user clicks on Details he can see the dimensions and the inertia characteristics of the
selected beam section.
Picture 5.7
By clicking on the option Welded the user can define the dimensions of the welded section and then
the program automatically calculates the section inertia characteristics.
5.3 Bolt properties
The definition of the bolt parameters can be done by selecting the tab Bolts properties. The user
selects the bolt type, the bolt quality and has the option to use the effective area of the bolt and/or
oversize holes.
Picture 5.8
When the user clicks on Details the following image appears, where the user can see the bolt type
dimensions he defined, accordind to DIN 7990, DIN 7969, EN 24034, EN 24032, DIN 6914.
Clicking on Custom dimensions the user defines the bolt dimensions he prefers.
Picture 5.9
5.4 Leg channels
By clicking on the tab Leg channels the user can define the shape and the steel quality of the angles
section. The user can select either a standard or a welded angle section. When the user selects a
welded angle section the option Shape becomes inactive and he defines the welded angle section
dimensions in the appropriate form.
Picture 5.10
Inside this tab the user can also define the angles length.
5.5 Column connection
When the user clicks on the tab Column connection an indicative angle cleat attached to the column
appears. Onto that cleat the user defines the rows and the columns of the bolts used in the
connection. Additionally the user defines the bolts distance from the cleat edges.
Picture 5.11
The user can select symmetric placement either in the horizontal, or in the vertical direction by
clicking on the appropriate option.
5.6 Beam connection
The angle cleat is welded to the beam web. The user in the tab Beam connection can specify the weld
thickness.
Picture 5.12
Then the user defines the connection load cases.
Picture 5.13
The user can add more than one load cases by clicking on New.
If the user wants to delete one or more load cases he has already defined he must click on the specific
load combination and then click at Delete.
The user can also import the connection loads from an Excel spreadsheet by clicking on Paste from
Excel.
The beam column connection design starts when the user clicks on Calculate
Picture 5.14
The design results are shown in the tab Results.
Picture 5.15
The red colour of the text means that the capacity is exceeded (capacity > 1.0). The critical
combinations are also shown in red.
6 ENDPLATE BEAM COLUMN CONNECTION
This type of connection can transfer bending moment from the beam to the column through the end
plate. The user can design the connection with a beam either on one or both sides of the column, add
beam and/or column stiffeners as well as haunches to increase the bearing capacity of the connection.
All the components of the connection are checked according to Part 1-8 of Eurocode 3. The checks
refer not only to the capacity of the connection elements but to the developed deformation of the
connection (rotational capacity) as well.
Picture 6.1
The option Connection’s Properies gives the user the capability to define the connection parameters
by selecting each time the appropriate tab.
Picture 6.2
6.1 General
The tab General refers to the general connection parameters. The user can select frame either
laterally unbraced or not, the absence or not of upper floor as well as the
rotational capacity check according to paragraph 6.4.1 Part (1-8) of Eurocode 3.
The program also gives the user the capability to specify the simultaneous existence of a left
connection. When the option left connection is active the user can make left connection equal to right
by clicking on the button Make left connection equal to right.
Picture 6.3
6.2 Column
By clicking on the tab Column a column detail appears in the window. The user can select the
excistence of transverse stiffeners and backing plates on the column by clicking the appropriate
options. When the user selects the use of stiffeners and backing plates he has to define their thickness
as well as their geometry.
Picture 6.4
Picture 6.5
Apart from the column flange plates, the program gives the user the capability to use column web
stiffeners as well. When clicking on Use of column web stiffeners on both sides of web, the Column
web plates window becomes active. There the user can define the thickness and the geometry of
these plates therefore the weld thickness on column. Then the user defines the shape, the type and
the steel quality of the column section.
When the user clicks on Details he can see the dimensions and the inertia characteristics of the
specified beam section.
Picture 6.6
Picture 6.7
By clicking on the option Welded the user can define the dimensions of the welded section and then
the program automatically calculates the section inertia characteristics.
6.3 Right beam
When the user clicks on the tab Right beam has the capability to see a beam detail as shown below.
Picture 6.8
There the user can define the angle between the beam and the horizontal, as well as the beam length.
The user can also select the use of stiffeners. In that case he can define their thickness and length as
well as the steel quality.
Inside the Right Beam box the user can set the shape, type and steel quality of the respective beam
section.
When the user clicks on Details he can see the dimensions and the inertia characteristics of the
specified beam section.
Picture 6.9
Picture 6.10
By clicking on the option Welded the user can define the dimensions of the welded section and the
program automatically calculates the section inertia characteristics.
Picture 6.11
6.4 Left beam
The tab Left beam becomes active only after the user has selected the excistence of the left
connection in the tab General.
Picture 6.12
The Left beam tab parameters are similar to the Right beam tab parameters.
6.5 Right endplate
When the user selects the Right endplate tab an endplate detail appears in the window.
Picture 6.13
There the user can define the endplate dimensions, its thickess as well as endplate steel quality and
the column welds thickness. The user can also define the number of the bolt rows and columns and
the layout of the bolts on the endplate.
6.6 Left endplate
The tab Left endplate becomes active only after the user has selected the excistence of the left
connection in the tab General.
Picture 6.14
6.7 Right bolts
Inside the tab Right bolts the user selects the bolt type, the bolt quality and whether the effective area
of the bolt will be used and/or oversize holes.
When the user clicks on Details he can see the bolt type dimensions he defined accordind to DIN 7990,
DIN 7969, EN 24034, EN 24032, DIN 6914. Clicking on Custom dimensions the user defines the bolt
dimensions he prefers.
Picture 6.15
6.8 Left bolts
The tab Left bolts becomes active only after the user has selected the excistence of the left connection
in the tab General and its parameteters are similar to the Right bolts tab parameters.
Picture 6.16
6.9 Right haunch
The program gives the user the capability either to select the use of right haunch or not by clicking on
the option Use of right haunch. If he does so, the following window appears.
Picture 6.17
The user can define the weld thickness and the angle between haunch and beam flange. He can also
specify the haunch shape and type as well as the steel quality. When the user wants to define the
haunch height he has to click on Welded and a haunch detail appears in the window.
Picture 6.18
Inside, the user can define the haunch height by changing the section height. He can also modify the
section dimensions as well as the section inertia characteristics.
6.10 Left haunch
The tab Left haunch becomes active only after the user has selected the excistence of the left
connection in the tab General and its parameteters are similar to the Right haunch tab parameters.
Picture 6.19
In the load cases window, the user defines the connection load cases. Nc, Vc, Mc are the column
forces, Nl, Vl, Ml are the the left beam forces and Nr, Vr, Mr are the right beam forces.
Picture 6.20
The user can add more load cases by clicking on New.
If the user wants to delete one or more load cases he can do so by clicking on the specific load
combination and then click on Delete.
The user can also import the connection loads from an Excel spreadsheet by clicking on Paste from
Excel.
The endplate beam column connection design starts when the user clicks on Calculate
Picture 6.21
The design results are shown in the tab Results.
Picture 6.22
The text in red means that the capacity is exceeded (capacity > 1.0). The user can also see the critical
combinations marked in red too. By clicking on the button Critical mechanisms of bolt rows under
tension the following window appears where the user can see the critical mechanisms of every bolt
row in tension followed by their calculated strength so in case the connection strength is exceeded the
user can immediately identify the critical mechanism and act accordingly.
Picture 6.23
7 BEAM COLUMN CONNECTION WITH STEEL PLATE
The beam is connected to the column through a rectangular steel plate which is welded to the column
flange and then the beam is bolted to the plate. The cross-section of the column can be either of I type
or hollow (RHS, SHS). The performed checks include: bolt shear capacity, bolt bearing capacity, block
tearing for both beam and column, failure of the column face (in case of hollow section).
The option Connection’s Properies gives the user the capability to define the connection parameters
by selecting each time the appropriate tab.
Picture 7.1
7.1 Bolts properties
The definition of the bolt parameters can be done by selecting the tab Bolts properties. The user
selects the bolt type, the bolt quality and the use of the effective area of the bolt and/or oversize
holes.
Picture 7.2
When the user clicks on Details the above image appears where the user can see the bolt type
dimensions he defined, accordind to DIN 7990, DIN 7969, EN 24034, EN 24032 and DIN 6914.
Clicking on Custom dimensions the user defines the bolt dimensions he prefers.
7.2 Steel plate
In the tab Steel plate window the user has the capability to define the bolt rows, columns and the
bolts layout on the plate. When the user wants symmetric bolt placement in the horizontal direction,
in the vertical direction or both, he has to check the appropriate option.The user also defines the steel
plate dimensions.
Picture 7.3
7.3 Column
In the tab Column the user defines the shape, the type and the steel quality of the column.
By clicking on Details, the user clicks can see the dimensions and the inertia characteristics of the
column section he defined.
Picture 7.4
By clicking on the option Welded the user can define the dimensions of the welded section and then
the program automatically calculates the section inertia characteristics.
7.4 Beam
By clicking on the tab Beam the user can define the shape, the type and the steel quality of the beam.
Picture 7.5
When the user clicks on Details he can see the dimensions and the inertia characteristics of the beam
section the user defined.
Picture 7.6
Picture 7.7
By clicking on the option Welded the user can define the dimensions of the welded section and then
the program automatically calculates the section inertia characteristics.
Picture 7.8
7.5 Plate welds
By selecting the tab Plate welds the user has the capability to define the plate welds thickness.
Picture 7.9
In the load cases window the user defines the connection load cases.
Picture 7.10
The user can add more than one load cases by clicking on New.
If the user wants to delete one or more load cases he has already defined, he must click on the specific
load combination and then click on Delete.
The user can also import the connection loads from an Excel spreadsheet by clicking on Paste from
Excel.
The beam - column connection design starts when the user clicks on Calculate
Picture 7.11
The design results are shown in the tab Results.
Picture 7.12
The text in red means that the capacity is exceeded (capacity > 1.0). The user can also see the critical
combinations also marked in red color.
8 BEAM ON BEAM CONNECTION
This connection refers to a secondary beam (supported beam) connected to the web of a main beam
(supporting beam). The cross section of both beams must be of I type. Both equal and unequal double
angle cleats can be used for the connection, either hot rolled or welded. The user can also define
whether or not there will be a cut on the top or bottom flange of the secondary beam. The performed
checks include: bending and shear capacity of the angle cleats, bolts shear and bearing capacity, block
shear capacity for both beams. Moreover, the program checks if the connection meets the ductility
criteria of Eurocode 3.
Picture 8.1
The option Connection’s Properies gives the user the capability to define the connection parameters
by selecting each time the appropriate tab.
Picture 8.2
8.1 Main beam
By clicking on the tab Main beam the user can define the shape, the type and the steel quality of the
connection main beam.
Picture 8.3
When the user clicks on Details has the capability to see the dimensions and the inertia characteristics
of the beam section the user defined.
Picture 8.4
Picture 8.5
By clicking on the option Welded the user can define the dimensions of the welded section and then
the program automatically calculates the section inertia characteristics.
Picture 8.6
8.2 General
When the user selects the tab General a detail of the beam to beam connection appears. In the tab
window the user can define the connection general geometry as shown below.
Picture 8.7
8.3 Secondary beam
By clicking on the tab Secondary beam the user can define the shape, the type and the steel quality of
the connection secondary beam.
Picture 8.8
When the user clicks on Details has the capability to see the dimensions and the inertia characteristics
of the beam section the user defined.
Picture 8.9
Picture 8.10
By clicking on the option Welded the user can define the dimensions of the welded section and then
the program automatically calculates the section inertia characteristics.
Picture 8.11
8.4 Leg channels
By clicking on the tab Leg channels the user can define the shape and the steel quality of the angles.
The user can select either a standard or a welded angle. When the user selects a welded angle the
option Shape becomes inactive and he defines the welded angle dimensions in the appropriate form.
In this tab the user can also define the angles length.
Picture 8.12
8.5 Bolts properties
The definition of the bolt parameters can be done by selecting the tab Bolts properties. The user
selects the bolt type, the bolt quality and the use of the effective area of the bolt and/or oversize
holes.
When the user clicks on Details the above image appears where the user can see the bolt type
dimensions he defined accordind to DIN 7990, DIN 7969, EN 24034, EN 24032 and DIN 6914.
By clicking on Custom dimensions the user can define the bolt dimensions he prefers.
8.6 Bolts on main beam
When the user clicks on the tab Bolts on main beam a detail of the cleat bolts layout on the main
beam appears. In that detail the user defines the rows and the columns of the bolts used in the
connection. Additionally the user defines the bolts distance from the cleat edges.
Picture 8.13
The user can also select symmetric placement in either the horizontal or vertical direction or in both,
by clicking on the appropriate option.
8.7 Bolts on secondary beam
The tab Bolts on secondary beam contains a detail of the bolts layout on the secondary beam. In that
detail the user defines the rows and the columns of the bolts used at the connection. Additionally the
user defines the bolts distance from the cleat edges.
Picture 8.14
The user has the capability to select symmetric placement either in the horizontal or vertical direction
or in both, by clicking on the appropriate option.
In the load cases window the user defines the connection load cases.
Picture 8.15
The user can add more than one load cases by clicking on New.
If the user wants to delete one or more load cases he has already defined he must click on the specific
load and then click on Delete.
The user can also import the connection loads from an Excel spreadsheet by clicking on Paste from
Excel.
The beam - column connection design starts when the user clicks on Calculate.
Picture 8.16
The design results are shown in the tab Results.
Picture 8.17
The text in red means that the capacity is exceeded (capacity > 1.0). The user can also see the critical
combinations also marked in red color.
9 BEAM SPLICES WITH ENDPLATES CONNECTION
The connection refers to the splice of I-section beams through the use of end plates. All the
components of the connection are checked according to Part 1-8 of Eurocode 3. The checks refer not
only to the capacity of the connection elements but to the developed deformation of the connection
(rotational capacity) as well.
The option Connection’s properties gives the user the capability to define the connection parameters
by selecting each time the appropriate tab.
Picture 9.1
9.1 Beam
When the user selects the tab Beam a beam splice connection detail appears in the window. There the
user can select the use of beam web stiffener by clicking on the appropriate option. In this case the
user also defines the stiffeners length and thickness as well as its steel quality.
Picture 9.2
Additionally the user defines the angle between the beam and the horizontal.
Inside Beam box the user defines the shape, the type and the steel quality of the beam section.
When the user clicks on Details he can see the dimensions and the inertia characteristics of the beam
section he defined.
Picture 9.3
Picture 9.4
By clicking on the option Welded the user can define the dimensions of the welded section and then
the program automatically calculates the section inertia characteristics.
Picture 9.5
9.2 Haunch
The program gives the user the capability either to select the use of haunch or not by clicking on the
option Use of haunch. When he does that the following window appears.
Picture 9.6
The user has the capability to define the weld thickness and the angle between haunch and beam
flange. Then he selects the haunch shape and type as well as the section steel quality. When the user
wants to define the haunch height he has to click on Welded and a haunch detail appears in the
window.
Picture 9.7
There the user defines the haunch height by changing the section height. He can also modify the
remaining section dimensions as well as the section inertia characteristics.
9.3 Endplate
When the user selects the Endplate tab an endplate detail appears in the window.
Picture 9.8
There the user can define the endplate dimensions, its thickess as well as endplate steel quality. The
user can also define the number of the bolt rows and columns and the beams and bolts placement on
the endplate.
9.4 Bolts properties
The definition of the bolt parameters can be done by selecting the tab Bolts properties. The user
selects the bolt type, the bolt quality the use of the effective area of the bolt and/or oversize holes.
Picture 9.9
When the user clicks on Details appears the above image where the user can see the bolt type
dimensions he defined accordind to DIN 7990, DIN 7969, EN 24034, EN 24032 and DIN 6914.
Clicking on Custom dimensions the user defines the bolt dimensions he prefers.
9.5 Welds
By selecting the tab Welds the user has the capability to define the beams weld thickness on the
endplate.
Picture 9.10
In the load cases window the user defines the connection load cases.
Picture 9.11
The user can add more than one load cases by clicking on New.
If the user wants to delete one or more load cases he has already defined he must click on the specific
load combination and then click on Delete.
The user can also import the connection loads from an Excel spreadsheet by clicking on Paste from
Excel.
The beam to beam connection design starts when the user clicks on Calculate
Picture 9.12
The design results are shown in the tab Results.
Picture 9.13
The text in red means that the capacity is exceeded (capacity > 1.0). The user can also see the critical
combinations also marked in red color.
9.6 BRACING CONNECTION
This connection type refers to Λ or X shaped bracings, covering a wide variety of connection geometry.
In case of X-shaped bracings the program offers the user the possibility to design the splice at the
middle node. Additionally, apart from the usual checks, the user can perform ductility design of the
bracing, assuming that the member in tension is ductile.
Picture 9.14
The option Connection’s Properies gives the user the capability to define the connection parameters
by selecting each time the appropriate tab.
Picture 9.15
9.7 Welds
When the user selects the tab General the following frame appears.
Picture 9.16
The user selects the bracing type of the connection by clicking on the appropriate form. The program
gives the user the capability to select either the use of a welded connection between the brace and
the steel plate or the use of bolts.
9.8 Plate welds
In the tab Plate welds the user defines the weld thickness between the plate and the column and
between the plate and the beam.
Picture 9.17
9.9 Bolts properties
When the user has selected the use of bolts between brace and steel plate the tab Bolts properties
window becomes active. Inside the user selects the bolt type, the bolt quality and the use of the
effective area of the bolt and/or oversize holes.
Picture 9.18
When the user clicks on Details the above image appears where the user can see the bolt type
dimensions he defined accordind to DIN 7990, DIN 7969, EN 24034, EN 24032 and DIN 6914.
By clicking on Custom dimensions the user defines the bolt dimensions he prefers.
9.10 Beam
By clicking on the tab Beam the user can define the shape, the type and the steel quality of the
connection beam.
Picture 9.19
When the user clicks on Details he can see the dimensions and the inertia characteristics of the beam
section the user defined.
Picture 9.20
Picture 9.21
By clicking on the option Welded the user can define the dimensions of the welded section and then
the program automatically calculates the section inertia characteristics.
Picture 9.22
9.11 Column
As previously, the user defines the shape, the type and the steel quality of the column. He also selects
either a standard or a welded column section.
Picture 9.23
9.12 Steel plate
By selecting the tab Steel plate the user defines the plate dimensions and thickness as well as the bolts
layout on the steel plate.
Picture 9.24
9.13 Brace
The program gives the user the capability to select the type of brace (channel, double channel, angle,
double angle, SHS/RHS or CHS) by clicking on the appropriate form and then he can define either a
standard or a welded brace section.
Picture 9.25
9.14 Ductility
The user has the capability to select the ductility design of the braces and then to define the ductility
scale factor (acd). In that case the given connection load cases will be multiplied in order to perform
ductility design according to Eurocode 3.
Picture 9.26
In the load cases window the user defines the connection load cases.
Picture 9.27
The user can add more than one load cases by clicking on New.
If the user wants to delete one or more load cases he has already defined he must click on the specific
load combination and then click on Delete.
The user can also import the connection loads from an Excel spreadsheet by clicking on Paste from
Excel.
The connection design starts when the user clicks on Calculate.
Picture 9.28
The design results are shown in the tab Results.
Picture 9.29
The text in red means that the capacity is exceeded (capacity > 1.0). The user can also see the critical
combinations also marked in red color.
10 FLANGE AND WEB PLATES BEAM CONNECTION
The connection refers to the splice of I-section beams through the use of steel plates. The steel plates
can be attached to the web and flanges of the beams either with bolts or with a combination of welds
and bolts. Besides the capacity of the connection elements, the program checks if the connection
meets the ductility criteria of Eurocode 3, to ensure that brittle failure modes are avoided.
Picture 10.1
10.1 Steel plates
In the window of the tag Steel plates the user can define the dimensions and thickness of the web and
flange plates. The user also defines the gap between the connected beams.
Picture 10.2
10.2 Beam
By clicking on the tab Beam the user can define the shape, the type and the steel quality of the
connection beams.
Picture 10.3
When the user clicks on Details has the capability to see the dimensions and the inertia characteristics
of the beam section the user defined.
Picture 10.4
Picture 10.5
By clicking on the option Welded the user can define the dimensions of the welded section and then
the program automatically calculates the section inertia characteristics.
Picture 10.6
10.3 Web plate
When the user clicks on the tab Web plate a plate detail appears. There is also a web plate view. On
that detail the user defines the rows and the columns of the bolts used in the connection. Additionally
the user defines the bolts distance from the plate edges.
Picture 10.7
The user has the capability to select symmetric placement in the horizontal or in the vertical direction
or in both directions, by clicking on the appropriate option.
10.4 Web bolts
The definition of the bolts parameters (of those placed on the web) can be done by selecting the tab
Web bolts. The user selects the bolt type, the bolt quality and the use of the effective area of the bolt
and/or oversize holes.
Picture 10.8
When the user clicks on Details the above image appears where the user can see the bolt type
dimensions he defined accordind to DIN 7990, DIN 7969, EN 24034, EN 24032 and DIN 6914.
By clicking on Custom dimensions the user defines the bolt dimensions he prefers.
10.5 Web plate
When the user clicks on the tab Flange plate a plate detail appears. There is also a flange plate view.
On that detail the user defines the rows and the columns of the bolts used in the connection.
Additionally the user defines the bolts distance from the plate edges.
Picture 10.9
The user has the capability to select symmetric placement in the horizontal or in the vertical direction
or in both directions by clicking on the appropriate option.
10.6 Flange bolts
The user acts the same way he did when he selected the tab Web bolts.
10.7 Welds
The program gives the user the capability to select welded flange and web plates to the left
connection beam by clicking on Steel plates welded to left beam. When he does that he can also
define the weld thickness of both plates.
Picture 10.10
In the load cases window the user defines the connection load cases.
Picture 10.11
The user can add more than one load cases by clicking on New.
If the user wants to delete one or more load cases he has already defined he must click on the specific
load combination and then click on Delete.
The user can also import the connection loads from an Excel spreadsheet by clicking on Paste from
Excel.
The beam connection design starts when the user clicks on Calculate
Picture 10.12
The design results are shown in the tab Results.
Picture 10.13
The text in red means that the capacity is exceeded (capacity > 1.0). The user can also see the critical
combinations also marked in red.
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